| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Nagel R. — One-parameter semigroups of positive operators | 64, 86 |
| Apostol T.M. — Calculus (vol 2) | 98 |
| Bathe K.-J. — Finite element procedures | 56 |
| Dummit D.S., Foote R.M. — Abstract algebra | 473 |
| Ben-Israel A., Greville T. — Generalized inverses: Theory and applications | 11 |
| Bognar J. — Indefinite Inner Product Spaces | 29 |
| Latrve D.R., Kreider D.L., Proctor T.G. — Hp-48G/Gx Investigations in Mathematics | 495 |
| Saad Y. — Numerical Methods for Large Eigenvalue Problems | 12 |
| Hertling C. — Frobenius manifolds and moduli spaces for singularities | 111 |
| Saad Y. — Iterative Methods for Sparse Linear Systems | 10 |
| Kuttler K. — Introduction to linear algebra for mathematicians | 139, 178, 208 |
| Meyer C.D. — Matrix analysis and applied linear algebra | 490 |
| Fulton W., Harris J. — Representation Theory: A First Course | 162 |
| Watkins D. — Fundamentals of matrix computations | 414 |
| Naber G.L. — The geometry of Minkowski spacetime: an introduction to the mathematics of the special theory of relativity | 105 |
| Davies E. — Spectral Theory and Differential Operators | 73 |
| Dummit D.S., Foote R.M. — Abstract Algebra | 384 |
| Behnke H., Bachmann F., Fladt K. — Fundamentals of Mathematics, Volume II: Geometry | 315 |
| Grillet P.A. — Abstract Algebra | 345 |
| Halmos P.R. — Hilbert Space Problem Book | 125 |
| Brünjes L. — Forms of Fermat Equations and Their Zeta Functions | 9, 10, 165 |
| Brouwer A.E., Cohen A.M., Neumaier A. — Distance-Regular Graphs | 77, 131 |
| Bourbaki N. — Algebra II: Chapters 4-7 | VII, page 30 |
| Araki H. — Mathematical Theory of Quantum Fields | 202 |
| Cvetkovic D., Rowlinson P., Simic S. — Eigenspaces of Graphs | 2 |
| Ericson T. — Codes on Euclidean Spheres | 265 |
| Blyth T.S., Robertson E.F. — Basic Linear Algebra | 156 |
| Thaller B. — Visual quantum mechanics | 115 |
| Weickert J. — Visualization and Processing of Tensor Fields: Proceedings of the Dagstuhl Workshop | 6 |
| Hall B.C. — Lie Groups, Lie Algebras, and Representations: An Elementary Understanding | 292 |
| Sandor J., Mitrinovic D.S., Crstici B. — Handbook of Number Theory II | 394 |
| Lang S. — Undergraduate Algebra | 216 |
| Antman S.S. — Nonlinear Problems of Elasticity | 141 |
| Lang S. — Real Analysis | 171 |
| Cohn P.M. — Skew Fields : Theory of General Division Rings (Encyclopedia of Mathematics and its Applications) | 378 |
| Helgason S. — Differential Geometry, Lie Groups and Symmetric Spaces | 155 |
| Ionin Y.J., Shrikhande M.S. — Combinatorics of Symmetric Designs | 21 |
| Nagel R., Derdinger R., Günther P. — Ergodic theory in the perspective of functional analysis | B/6 |
| Lay D.C. — Linear Algebra And Its Applications | 274 |
| Zauderer E. — Partial Differential Equations of Applied Mathematics | 811 |
| Gruenberg K.W. — Linear Geometry | 71, 135, 142, 143 |
| Lin I.H. — Geometric Linear Algebra. Vol. 1 | 193, 210, 224, 478, 479, 516, 791, 794 |
| Robinson D.J.S. — A Course in Linear Algebra with Applications | 290 |
| Greenberg M.D. — Advanced engineering mathematics | 553 |
| Berndt B.C., Evans R.J., Williams K.S. — Gauss and Jacobi Sums | 51 |
| Blyth T.S., Robertson E.F. — Further Linear Algebra | 9 |
| Choquet-Bruhat Y., Dewitt-Morette C. — Analysis, Manifolds and Physics (vol. 2) | 48 |
| Sanders J.A., Verhulst F. — Averaging methods in nonlinear dynamical systems | 209, 210 |
| Peleg Y., Pnini R., Zaarur E. — Schaum's outline of theory and problems of quantum mechanics | 51 |
| Stewart G.W. — Matrix algorithms. Volume 2: Eigensystems | 22, 115, 240, 247 (see also “Simple eigenspace”) |
| Saad Y. — Iterative methods for sparse linear systems | 10 |
| Kozen D.C. — The Design And Analysis Of Algorithms | 174 |
| Olver P.J., Shakiban C. — Applied linear. algebra | 398, 400, 407, 466 |
| Kreyszig E. — Advanced engineering mathematics | 336, 865 |
| Simmons G.F. — Introduction to topology and modern analysis | 278 |
| Shankar R. — Principles of quantum mechanics | 37 |
| Gilmore R. — Lie Groups, Lie Algebras and Some of Their Applications | 243, 265 |
| Conway J.B. — A Course in Functional Analysis | 213 |
| Mac Lane S., Birkhoff G.D. — Algebra | 258 |
| Trefethen L.N., Bau D. — Numerical Linear Algebra | 181, 183 |
| Lang S. — Real and Functional Analysis (Graduate Texts in Mathematics Series #142) | 442 |
| Neumann M., Berman A., Stern R.J. — Nonnegative matrices in dynamic systems | 10 |
| Hungerford T.W. — Algebra | 368 |
| Stewart G.W., Sun J. — Matrix perturbation theory | (see Under matrix pair) 303 |
| Buser P. — Geometry and spectra of compact riemann surfaces | 191, 295, 296 |
| Curtis M.L. — Abstract Linear Algebra | 39 |
| Bai Z. (ed.) — Templates for the Solution of Algebraic Eigenvalue Problems: A Practical Guide | 8 |
| Katznelson I., KatznelsonY.R. — A (Terse) Introduction to Linear Algebra (Student Mathematical Library) | 86 |
| Carl D. Meyer — Matrix Analysis and Applied Linear Algebra Book and Solutions Manual | 490 |
| Guckenheimer J., Holmes Ph. — Nonlinear Oscillations, Dynamical Systems, and Bifurcations of Vector Fields, Vol. 42 | 9—12 |
| Vilenkin N.Y., Gel'fand I.M. — Generalized Functions. Volume 4. Applications of Harmonic Analysis | 120 |
| Kreyszig E. — Introductory functional analysis with applications | 365, 372 |
| Hefferon J. — Linear algebra | 362 |
| Przeworska-Rolewicz D., Rolewicz S. — Equations in linear spaces | 49 |
| Abramovich Y.A., Aliprantis C.D. — An Invitation to Operator Theory | 384 |
| Hausner M., Schwartz J.T. — Lie groups, Lie algebras | 5 |
| Volkmer H. — Multiparameter Eigenvalue Problems And Expansion Theorems | 77, 88, 120 |
| Isotalo J., Puntanen S — Formulas Useful for Linear Regression Analysis and Related Matrix Theory | 64 |
| Hirsch M.W., Smale S. — Differential Equations, Dynamical Systems, and Linear Algebra | 110 |
| Hackbusch W. — Multi-Grid Methods and Applications | 252 |
| Reithmeier E. — Periodic Solutions of Nonlinear Dynamical Systems: Numerical Computation, Stability, Bifurcation and Transition to Chaos | 34 |
| Fuzhen Zhang — Matrix theory: basic results and techniques | 19 |
| Gruenberg K.W., Weir A.J. — Linear Geometry | 71 (ex. 4), 135, 142, 143 |
| Zeidler E. — Applied Functional Analysis: Applications to Mathematical Physics | 230 |
| Laurens Jansen — Theory of Finite Groups. Applications in Physics | 201 |
| Lang S. — Linear Algebra | 247, 292 |
| Apostol T.M. — Calculus (Volume 2): Multi-Variable Calculus and Linear Algebra with Applications | 98 |
| Horn R.A. — Matrix Analysis | 57 |
| Schott J.R. — Matrix Analysis for Statistics | 87, 146 |
| Treves F. — Topological Vector Spaces, Distributions And Kernels | 491 |
| Von Grudzinski O. — Quasihomogeneous distributions | 5 |
| Berman A., Shaked-Monderer N. — Completely Positive Matrices | 6 |
| Hammerlin G., Hoffmann K.-H., Schumaker L.L. — Numerical Mathematics | 91 |
| Hejhal D.A. — The Selberg Trace Formula for PSL(2,R) (volume 2) | 72, 282, 371, 381, 486 |
| Golan J.S. — The Linear Algebra a Beginning Graduate Student Ought to Know (Texts in the Mathematical Sciences) | 231, 233 |
| Abramovich Y., Aliprantis C. — An Invitation to Operator Theory (Graduate Studies in Mathematics, V. 50) | 384 |
| D'Angelo J.P. — Inequalities from Complex Analysis (Carus Mathematical Monographs) | 154, 158 |
| Jorgensen P.E.T. — Analysis and Probability: Wavelets, Signals, Fractals | 19 |
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